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Changeset bceba9dd in OpenModelica

Timestamp:

2016-03-22T13:35:10+01:00 (8 years ago)

Author:

Willi Braun <wbraun@…>

Branches:

Added-citation-metadata, maintenance/v1.14, maintenance/v1.15, maintenance/v1.16, maintenance/v1.17, maintenance/v1.18, maintenance/v1.19, maintenance/v1.20, maintenance/v1.21, maintenance/v1.22, maintenance/v1.23, master, omlib-staging

Children:

f4265f81

Parents:

50f75829

git-author:

Willi Braun <wbraun@…> (03/21/16 19:51:47)

git-committer:

Willi Braun <wbraun@…> (03/22/16 13:35:10)

Message:

expected output

File:

: 1 edited

openmodelica/uncertainties/DataReconciliationTests21jan2013.mos (modified) (1 diff)

Legend:

: Unmodified
: Added
: Removed

openmodelica/uncertainties/DataReconciliationTests21jan2013.mos

r46659c28	rbceba9dd
667	667	// => select value from switchValve1.T(nominal = 500.0) for variable: switchValve1.T
668	668	// "
669		// "{{{sensorQ4\\[UpPointer]Q[\\[FormalT]],sensorQ1\\[UpPointer]Q[\\[FormalT]],sensorQ3\\[UpPointer]Q[\\[FormalT]],sensorQ2\\[UpPointer]Q[\\[FormalT]]},{0==sensorQ1\\[UpPointer]Q[\\[FormalT]] + (-sensorQ2\\[UpPointer]Q[\\[FormalT]] - sensorQ3\\[UpPointer]Q[\\[FormalT]]),0==sensorQ2\\[UpPointer]Q[\\[FormalT]] + (sensorQ3\\[UpPointer]Q[\\[FormalT]] - sensorQ4\\[UpPointer]Q[\\[FormalT]]),(sensorQ2\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + ((-sensorQ3\\[UpPointer]Q[\\[FormalT]]) * (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] / 0 + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0]) / 0]) - sensorQ4\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]]) / 0 ,0])) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ,sinkP1\\[UpPointer]h]))) / (sensorQ4\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) - (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) * (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1]))) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ^ 2 ,0]) + sensorQ3\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ^ 2 - (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) * (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ^ 2 ,0 / 0]))==ToExpression[StringReplace[\"0.5\",\"e\"->\"1.010^\"]] * (2 * pipePressureLoss1\\[UpPointer]Pm[\\[FormalT]] - (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])])) / 0 - splitter21\\[UpPointer]h[\\[FormalT]] / 0 ,If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0]]) - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0])) / (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,((If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0]) - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0])) / 0]) - sourceP1\\[UpPointer]P0)}},{{pipePressureLoss1\\[UpPointer]deltaPf[\\[FormalT]],splitter21\\[UpPointer]alpha1[\\[FormalT]],mixer21\\[UpPointer]alpha1[\\[FormalT]],pipePressureLoss1\\[UpPointer]h[\\[FormalT]],splitter21\\[UpPointer]h[\\[FormalT]],pipePressureLoss2\\[UpPointer]h[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],mixer21\\[UpPointer]T[\\[FormalT]],pipePressureLoss2\\[UpPointer]deltaPf[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss2\\[UpPointer]T[\\[FormalT]],pipePressureLoss3\\[UpPointer]deltaPf[\\[FormalT]],pipePressureLoss1\\[UpPointer]Pm[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss3\\[UpPointer]T[\\[FormalT]],pipePressureLoss4\\[UpPointer]deltaP[\\[FormalT]],pipePressureLoss2\\[UpPointer]deltaP[\\[FormalT]],pipePressureLoss4\\[UpPointer]Pm[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss4\\[UpPointer]T[\\[FormalT]],pipePressureLoss1\\[UpPointer]deltaP[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss1\\[UpPointer]T[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],splitter21\\[UpPointer]T[\\[FormalT]]},{pipePressureLoss3\\[UpPointer]deltaPf[\\[FormalT]]==pipePressureLoss3\\[UpPointer]K * FunctionCall[\".ThermoSysPro.Functions.ThermoSquare\"][sensorQ3\\[UpPointer]Q[\\[FormalT]],pipePressureLoss3\\[UpPointer]eps] / pipePressureLoss3\\[UpPointer]p\\[UnderBracket]rho,pipePressureLoss2\\[UpPointer]deltaP[\\[FormalT]]==pipePressureLoss3\\[UpPointer]deltaPf[\\[FormalT]] + pipePressureLoss3\\[UpPointer]deltaPg,pipePressureLoss2\\[UpPointer]deltaP[\\[FormalT]]==pipePressureLoss2\\[UpPointer]deltaPf[\\[FormalT]] + pipePressureLoss2\\[UpPointer]deltaPg,(-(If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])])) / 0 - splitter21\\[UpPointer]h[\\[FormalT]] / 0 ,If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0]]) - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0]) ,(If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0]) - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0])])) / (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0] ,0]) - sinkP1\\[UpPointer]P0==pipePressureLoss4\\[UpPointer]deltaP[\\[FormalT]],2 * sourceP1\\[UpPointer]P0 + -2 * pipePressureLoss1\\[UpPointer]Pm[\\[FormalT]]==pipePressureLoss1\\[UpPointer]deltaP[\\[FormalT]],FunctionCall[\".ThermoSysPro.Properties.WaterSteam.Common.ThermoProperties_ph\"][splitter21\\[UpPointer]T[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]]]==FunctionCall[\".ThermoSysPro.Properties.Fluid.Ph\"][-sourceP1\\[UpPointer]P0 - -2 * pipePressureLoss1\\[UpPointer]Pm[\\[FormalT]],splitter21\\[UpPointer]h[\\[FormalT]],splitter21\\[UpPointer]mode,splitter21\\[UpPointer]fluid],FunctionCall[\".ThermoSysPro.Properties.WaterSteam.Common.ThermoProperties_ph\"][pipePressureLoss3\\[UpPointer]T[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],(sensorQ1\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + sensorQ3\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] / 0 + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0]) / 0]) - sensorQ2\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss2\\[UpPointer]h[\\[FormalT]]) / ((-sensorQ3\\[UpPointer]Q[\\[FormalT]]) * (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ^ 2 - (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) * (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ^ 2 ,0 / 0]))]==FunctionCall[\".ThermoSysPro.Properties.Fluid.Ph\"][(sensorQ2\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - sensorQ3\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] / 0 + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0]) / 0]) - sensorQ4\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]]) / 0 ,0])) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ,sinkP1\\[UpPointer]h])) / (sensorQ4\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) - (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) * (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1]))) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ^ 2 ,0]) + sensorQ3\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ^ 2 - (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) * (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ^ 2 ,0 / 0])),(-(If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0] ,0]),pipePressureLoss3\\[UpPointer]mode,pipePressureLoss3\\[UpPointer]fluid],FunctionCall[\".ThermoSysPro.Properties.WaterSteam.Common.ThermoProperties_ph\"][pipePressureLoss1\\[UpPointer]T[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]]]==FunctionCall[\".ThermoSysPro.Properties.Fluid.Ph\"][pipePressureLoss1\\[UpPointer]Pm[\\[FormalT]],pipePressureLoss1\\[UpPointer]h[\\[FormalT]],pipePressureLoss1\\[UpPointer]mode,pipePressureLoss1\\[UpPointer]fluid],pipePressureLoss1\\[UpPointer]deltaPf[\\[FormalT]]==pipePressureLoss1\\[UpPointer]K * FunctionCall[\".ThermoSysPro.Functions.ThermoSquare\"][sensorQ1\\[UpPointer]Q[\\[FormalT]],pipePressureLoss1\\[UpPointer]eps] / pipePressureLoss1\\[UpPointer]p\\[UnderBracket]rho,pipePressureLoss1\\[UpPointer]deltaP[\\[FormalT]]==pipePressureLoss1\\[UpPointer]deltaPf[\\[FormalT]] + pipePressureLoss1\\[UpPointer]deltaPg,pipePressureLoss4\\[UpPointer]Pm[\\[FormalT]]==ToExpression[StringReplace[\"0.5\",\"e\"->\"1.010^\"]] * (sinkP1\\[UpPointer]P0 - (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])])) / 0 - splitter21\\[UpPointer]h[\\[FormalT]] / 0 ,If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0]]) - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0])) / (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,((If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0]) - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0])) / 0])),FunctionCall[\".ThermoSysPro.Properties.WaterSteam.Common.ThermoProperties_ph\"][pipePressureLoss4\\[UpPointer]T[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]]]==FunctionCall[\".ThermoSysPro.Properties.Fluid.Ph\"][pipePressureLoss4\\[UpPointer]Pm[\\[FormalT]],If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]]) / 0 ,0])) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ,sinkP1\\[UpPointer]h],pipePressureLoss4\\[UpPointer]mode,pipePressureLoss4\\[UpPointer]fluid],mixer21\\[UpPointer]alpha1[\\[FormalT]]==sensorQ2\\[UpPointer]Q[\\[FormalT]] / sensorQ4\\[UpPointer]Q[\\[FormalT]],splitter21\\[UpPointer]alpha1[\\[FormalT]]==sensorQ2\\[UpPointer]Q[\\[FormalT]] / sensorQ1\\[UpPointer]Q[\\[FormalT]],(pipePressureLoss2\\[UpPointer]deltaP[\\[FormalT]] + (sourceP1\\[UpPointer]P0 + -2 * pipePressureLoss1\\[UpPointer]Pm[\\[FormalT]] - (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])])) / 0 - splitter21\\[UpPointer]h[\\[FormalT]] / 0 ,If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0]]) - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0])) / (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0]) / 0 - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])]) / 0]))) / (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ^ 2 - ((If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])])) / 0 - splitter21\\[UpPointer]h[\\[FormalT]] / 0 ,If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0]]) - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0])) * (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0])) / (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ^ 2 ,0 / 0])==pipePressureLoss4\\[UpPointer]K * FunctionCall[\".ThermoSysPro.Functions.ThermoSquare\"][sensorQ4\\[UpPointer]Q[\\[FormalT]],pipePressureLoss4\\[UpPointer]eps] / pipePressureLoss4\\[UpPointer]p\\[UnderBracket]rho,pipePressureLoss4\\[UpPointer]deltaP[\\[FormalT]]==(pipePressureLoss2\\[UpPointer]deltaP[\\[FormalT]] + (sourceP1\\[UpPointer]P0 + -2 * pipePressureLoss1\\[UpPointer]Pm[\\[FormalT]] - (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])])) / 0 - splitter21\\[UpPointer]h[\\[FormalT]] / 0 ,If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0]]) - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0])) / (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0]) / 0 - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])]) / 0]))) / (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ^ 2 - ((If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])])) / 0 - splitter21\\[UpPointer]h[\\[FormalT]] / 0 ,If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0]]) - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0])) * (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0])) / (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ^ 2 ,0 / 0]) + pipePressureLoss4\\[UpPointer]deltaPg,FunctionCall[\".ThermoSysPro.Properties.WaterSteam.Common.ThermoProperties_ph\"][mixer21\\[UpPointer]T[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]]]==FunctionCall[\".ThermoSysPro.Properties.Fluid.Ph\"][(-(If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])])) / 0 - splitter21\\[UpPointer]h[\\[FormalT]] / 0 ,If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0]]) - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0]) ,(If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0]) - (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0])) / 0])])) / (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0] ,0]),(-(If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0] ,0]),mixer21\\[UpPointer]mode,mixer21\\[UpPointer]fluid],FunctionCall[\".ThermoSysPro.Properties.WaterSteam.Common.ThermoProperties_ph\"][pipePressureLoss2\\[UpPointer]T[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]]]==FunctionCall[\".ThermoSysPro.Properties.Fluid.Ph\"][(sensorQ2\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - sensorQ3\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] / 0 + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]])) / (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ,(pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0]) / 0]) - sensorQ4\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]]) / 0 ,0])) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ,sinkP1\\[UpPointer]h])) / (sensorQ4\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) - (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) * (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1]))) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ^ 2 ,0]) + sensorQ3\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, ((If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ^ 2 - (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]])) * (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0])) / (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,0]) ^ 2 ,0 / 0])),pipePressureLoss2\\[UpPointer]h[\\[FormalT]],pipePressureLoss2\\[UpPointer]mode,pipePressureLoss2\\[UpPointer]fluid]}},{\"None\",\"None\",\"None\",\"None\"}}"
	669	// "{{{sensorQ4\\[UpPointer]Q[\\[FormalT]],sensorQ1\\[UpPointer]Q[\\[FormalT]],sensorQ3\\[UpPointer]Q[\\[FormalT]],sensorQ2\\[UpPointer]Q[\\[FormalT]]},{0==sensorQ1\\[UpPointer]Q[\\[FormalT]] + (-sensorQ2\\[UpPointer]Q[\\[FormalT]] - sensorQ3\\[UpPointer]Q[\\[FormalT]]),0==sensorQ2\\[UpPointer]Q[\\[FormalT]] + (sensorQ3\\[UpPointer]Q[\\[FormalT]] - sensorQ4\\[UpPointer]Q[\\[FormalT]])}},{{splitter21\\[UpPointer]h[\\[FormalT]],pipePressureLoss1\\[UpPointer]h[\\[FormalT]],pipePressureLoss1\\[UpPointer]deltaPf[\\[FormalT]],mixer21\\[UpPointer]h[\\[FormalT]],pipePressureLoss2\\[UpPointer]h[\\[FormalT]],splitter21\\[UpPointer]alpha1[\\[FormalT]],mixer21\\[UpPointer]alpha1[\\[FormalT]],pipePressureLoss2\\[UpPointer]deltaPf[\\[FormalT]],pipePressureLoss3\\[UpPointer]deltaPf[\\[FormalT]],pipePressureLoss3\\[UpPointer]Pm[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss3\\[UpPointer]T[\\[FormalT]],pipePressureLoss4\\[UpPointer]deltaPf[\\[FormalT]],pipePressureLoss4\\[UpPointer]Pm[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss4\\[UpPointer]T[\\[FormalT]],pipePressureLoss1\\[UpPointer]deltaP[\\[FormalT]],pipePressureLoss1\\[UpPointer]Pm[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss1\\[UpPointer]T[\\[FormalT]],splitter21\\[UpPointer]P[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],splitter21\\[UpPointer]T[\\[FormalT]],mixer21\\[UpPointer]P[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],mixer21\\[UpPointer]T[\\[FormalT]],pipePressureLoss2\\[UpPointer]deltaP[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss2\\[UpPointer]T[\\[FormalT]],pipePressureLoss4\\[UpPointer]deltaP[\\[FormalT]]},{mixer21\\[UpPointer]P[\\[FormalT]] - sinkP1\\[UpPointer]P0==pipePressureLoss4\\[UpPointer]deltaP[\\[FormalT]],pipePressureLoss4\\[UpPointer]Pm[\\[FormalT]]==ToExpression[StringReplace[\"0.5\",\"e\"->\"1.010^\"]] * (mixer21\\[UpPointer]P[\\[FormalT]] + sinkP1\\[UpPointer]P0),pipePressureLoss4\\[UpPointer]deltaPf[\\[FormalT]]==pipePressureLoss4\\[UpPointer]K * FunctionCall[\".ThermoSysPro.Functions.ThermoSquare\"][sensorQ4\\[UpPointer]Q[\\[FormalT]],pipePressureLoss4\\[UpPointer]eps] / pipePressureLoss4\\[UpPointer]p\\[UnderBracket]rho,pipePressureLoss4\\[UpPointer]deltaP[\\[FormalT]]==pipePressureLoss4\\[UpPointer]deltaPf[\\[FormalT]] + pipePressureLoss4\\[UpPointer]deltaPg,splitter21\\[UpPointer]P[\\[FormalT]] - mixer21\\[UpPointer]P[\\[FormalT]]==pipePressureLoss2\\[UpPointer]deltaP[\\[FormalT]],pipePressureLoss3\\[UpPointer]Pm[\\[FormalT]]==ToExpression[StringReplace[\"0.5\",\"e\"->\"1.010^\"]] * (splitter21\\[UpPointer]P[\\[FormalT]] + mixer21\\[UpPointer]P[\\[FormalT]]),pipePressureLoss3\\[UpPointer]deltaPf[\\[FormalT]]==pipePressureLoss3\\[UpPointer]K * FunctionCall[\".ThermoSysPro.Functions.ThermoSquare\"][sensorQ3\\[UpPointer]Q[\\[FormalT]],pipePressureLoss3\\[UpPointer]eps] / pipePressureLoss3\\[UpPointer]p\\[UnderBracket]rho,pipePressureLoss2\\[UpPointer]deltaP[\\[FormalT]]==pipePressureLoss3\\[UpPointer]deltaPf[\\[FormalT]] + pipePressureLoss3\\[UpPointer]deltaPg,0==If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss2\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ2\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]) / 0 ,-pipePressureLoss2\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - mixer21\\[UpPointer]h[\\[FormalT]]],FunctionCall[\".ThermoSysPro.Properties.WaterSteam.Common.ThermoProperties_ph\"][pipePressureLoss2\\[UpPointer]T[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss2\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]]]==FunctionCall[\".ThermoSysPro.Properties.Fluid.Ph\"][pipePressureLoss3\\[UpPointer]Pm[\\[FormalT]],pipePressureLoss2\\[UpPointer]h[\\[FormalT]],pipePressureLoss2\\[UpPointer]mode,pipePressureLoss2\\[UpPointer]fluid],pipePressureLoss2\\[UpPointer]deltaP[\\[FormalT]]==pipePressureLoss2\\[UpPointer]deltaPf[\\[FormalT]] + pipePressureLoss2\\[UpPointer]deltaPg,0==If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, (sensorQ4\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-mixer21\\[UpPointer]h[\\[FormalT]]) / 0 ,0])) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ,sinkP1\\[UpPointer]h]) - sensorQ2\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss2\\[UpPointer]h[\\[FormalT]]) / sensorQ3\\[UpPointer]Q[\\[FormalT]] + (If[ sensorQ3\\[UpPointer]Q[\\[FormalT]] > 0, (sensorQ4\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-mixer21\\[UpPointer]h[\\[FormalT]]) / 0 ,0])) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ,sinkP1\\[UpPointer]h]) - sensorQ2\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss2\\[UpPointer]h[\\[FormalT]]) / 0 - splitter21\\[UpPointer]h[\\[FormalT]] / 0 ,(sensorQ2\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - sensorQ4\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-mixer21\\[UpPointer]h[\\[FormalT]]) / 0 ,0])) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ,sinkP1\\[UpPointer]h])) / sensorQ3\\[UpPointer]Q[\\[FormalT]]]) ,(sensorQ4\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-mixer21\\[UpPointer]h[\\[FormalT]]) / 0 ,0])) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ,sinkP1\\[UpPointer]h]) - sensorQ2\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss2\\[UpPointer]h[\\[FormalT]]) / sensorQ3\\[UpPointer]Q[\\[FormalT]] - mixer21\\[UpPointer]h[\\[FormalT]]],FunctionCall[\".ThermoSysPro.Properties.WaterSteam.Common.ThermoProperties_ph\"][mixer21\\[UpPointer]T[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],mixer21\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]]]==FunctionCall[\".ThermoSysPro.Properties.Fluid.Ph\"][mixer21\\[UpPointer]P[\\[FormalT]],mixer21\\[UpPointer]h[\\[FormalT]],mixer21\\[UpPointer]mode,mixer21\\[UpPointer]fluid],0==If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (If[ sensorQ1\\[UpPointer]Q[\\[FormalT]] > 0, (pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - sourceP1\\[UpPointer]h) / 0 ,-pipePressureLoss1\\[UpPointer]h[\\[FormalT]]]) ,pipePressureLoss1\\[UpPointer]h[\\[FormalT]] - splitter21\\[UpPointer]h[\\[FormalT]]],FunctionCall[\".ThermoSysPro.Properties.WaterSteam.Common.ThermoProperties_ph\"][splitter21\\[UpPointer]T[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],splitter21\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]]]==FunctionCall[\".ThermoSysPro.Properties.Fluid.Ph\"][splitter21\\[UpPointer]P[\\[FormalT]],splitter21\\[UpPointer]h[\\[FormalT]],splitter21\\[UpPointer]mode,splitter21\\[UpPointer]fluid],0==sensorQ1\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss1\\[UpPointer]h[\\[FormalT]] + (sensorQ2\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss2\\[UpPointer]h[\\[FormalT]] - sensorQ4\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-mixer21\\[UpPointer]h[\\[FormalT]]) / 0 ,0])) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ,sinkP1\\[UpPointer]h]) - sensorQ2\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss2\\[UpPointer]h[\\[FormalT]]),pipePressureLoss1\\[UpPointer]Pm[\\[FormalT]]==ToExpression[StringReplace[\"0.5\",\"e\"->\"1.010^\"]] * (sourceP1\\[UpPointer]P0 + splitter21\\[UpPointer]P[\\[FormalT]]),FunctionCall[\".ThermoSysPro.Properties.WaterSteam.Common.ThermoProperties_ph\"][pipePressureLoss1\\[UpPointer]T[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss1\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]]]==FunctionCall[\".ThermoSysPro.Properties.Fluid.Ph\"][pipePressureLoss1\\[UpPointer]Pm[\\[FormalT]],pipePressureLoss1\\[UpPointer]h[\\[FormalT]],pipePressureLoss1\\[UpPointer]mode,pipePressureLoss1\\[UpPointer]fluid],pipePressureLoss1\\[UpPointer]deltaP[\\[FormalT]]==pipePressureLoss1\\[UpPointer]deltaPf[\\[FormalT]] + pipePressureLoss1\\[UpPointer]deltaPg,sourceP1\\[UpPointer]P0 - splitter21\\[UpPointer]P[\\[FormalT]]==pipePressureLoss1\\[UpPointer]deltaP[\\[FormalT]],FunctionCall[\".ThermoSysPro.Properties.WaterSteam.Common.ThermoProperties_ph\"][pipePressureLoss4\\[UpPointer]T[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss4\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]]]==FunctionCall[\".ThermoSysPro.Properties.Fluid.Ph\"][pipePressureLoss4\\[UpPointer]Pm[\\[FormalT]],If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-mixer21\\[UpPointer]h[\\[FormalT]]) / 0 ,0])) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ,sinkP1\\[UpPointer]h],pipePressureLoss4\\[UpPointer]mode,pipePressureLoss4\\[UpPointer]fluid],mixer21\\[UpPointer]alpha1[\\[FormalT]]==sensorQ2\\[UpPointer]Q[\\[FormalT]] / sensorQ4\\[UpPointer]Q[\\[FormalT]],splitter21\\[UpPointer]alpha1[\\[FormalT]]==sensorQ2\\[UpPointer]Q[\\[FormalT]] / sensorQ1\\[UpPointer]Q[\\[FormalT]],FunctionCall[\".ThermoSysPro.Properties.WaterSteam.Common.ThermoProperties_ph\"][pipePressureLoss3\\[UpPointer]T[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]d[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]u[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]s[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]cp[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]ddhp[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]ddph[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]duph[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]duhp[\\[FormalT]],pipePressureLoss3\\[UpPointer]pro\\[UpPointer]x[\\[FormalT]]]==FunctionCall[\".ThermoSysPro.Properties.Fluid.Ph\"][pipePressureLoss3\\[UpPointer]Pm[\\[FormalT]],(sensorQ4\\[UpPointer]Q[\\[FormalT]] * (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-(If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, (-mixer21\\[UpPointer]h[\\[FormalT]]) / 0 ,0])) / (1 + (If[ sensorQ4\\[UpPointer]Q[\\[FormalT]] > 0, 0 / 0 ,-1])) ,sinkP1\\[UpPointer]h]) - sensorQ2\\[UpPointer]Q[\\[FormalT]] * pipePressureLoss2\\[UpPointer]h[\\[FormalT]]) / sensorQ3\\[UpPointer]Q[\\[FormalT]],pipePressureLoss3\\[UpPointer]mode,pipePressureLoss3\\[UpPointer]fluid]}},{\"None\",\"None\",\"None\",\"None\"}}"
670	670	// "[openmodelica/uncertainties/DataReconciliationTests21jan2013Total.mo:6665:7-6700:22:writable] Warning: Connector .ThermoSysPro.WaterSteam.Connectors.FluidOutlet is not balanced: The number of potential variables (4) is not equal to the number of flow variables (0).
671	671	// [openmodelica/uncertainties/DataReconciliationTests21jan2013Total.mo:4598:9-4637:28:writable] Warning: pro.x was used before it was defined (given a value). Additional such uses may exist for the variable, but some messages were suppressed.

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Changeset bceba9dd in OpenModelica

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openmodelica/uncertainties/DataReconciliationTests21jan2013.mos

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This OpenModelica Trac is moving to Github and is now read-only for non-admin users. We are in the process of porting the Trac ticket information to the issues in Github. Open new OpenModelica tickets here. Open new OMSimulator tickets here. Contact OpenModelica@ida.liu.se if you have questions.

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Changeset bceba9dd in OpenModelica

Legend:

openmodelica/uncertainties/DataReconciliationTests21jan2013.mos

Download in other formats:

This OpenModelica Trac is moving to Github and is now read-only for non-admin users.
We are in the process of porting the Trac ticket information to the issues in Github.
Open new OpenModelica tickets here.
Open new OMSimulator tickets here.
Contact OpenModelica@ida.liu.se if you have questions.